Id6100 Danieli Manual File
Features an industrial PC (IPC) or a dedicated VME/PCIe-based rack running a real-time operating system (RTOS) to handle high-speed data acquisition.
: If no material is detected, the digital output deactivates, but the analog output defaults to 100% (highest position).
The ID6100 functions by focusing infrared emissions from hot metal onto a . This static operation involves no moving parts, reducing mechanical wear and maintenance needs. Specification Details Detection Method Infrared CCD camera (Non-contact) Material Temperature Above 700°C (1300°F) Voltage Supply 20–30V DC Analog Output 0–10V or 4–20mA (Configurable) Enclosure Rating IP66 (Rugged aluminum case) Field of View Adjustable via Bank A DIP-switches Installation and Calibration
While the official manual provides the definitive procedures, experienced technicians have also shared practical tips online. For instance, one common warning from a Chinese industrial blog echoes the caution in most electronics manuals: when the ID6100 is powered on. Doing so can damage the scanner's or the computer's interface ports. id6100 danieli manual
Infrared sensor tailored for the steel industry (hot rolling, casting).
: The optical system focuses IR emissions onto a linear-array photo sensor.
Proper installation is crucial for the longevity and accuracy of the Danieli ID6100 3.1. Mounting and Positioning Features an industrial PC (IPC) or a dedicated
Schedule routine verification using certified test weights. Document the "as-found" and "as-left" data to map long-term sensor drift trends. Conclusion
For a mill operator, the manual is not just a technical guide but a blueprint for quality control
Legacy integration widely used in existing Siemens-based Danieli plants. This static operation involves no moving parts, reducing
The is a specialized infrared loop scanner and hot metal detector (HMD) designed for the extreme conditions of hot rolling mills . As part of the Danieli Automation ID6000 series , this device is critical for non-contact measurement and position tracking of hot materials such as wires, rods, and bars during the rolling process. Core Functionality & Application
Section 7.1 describes how to perform a functional test to verify the scanner is operating correctly. This may involve using a test object at the correct temperature and observing the output signals.