The Comprehensive Guide to the Danieli ID6100 Indicator: Operation, Technical Specifications, and Manual Insights
The core technology involves an optical system that focuses infrared (IR) emissions from the hot product onto a linear-array CCD (Charge-Coupled Device) sensor, allowing it to measure positions with high accuracy. 2. Key Technical Specifications (ID6100)
Finding a PDF version of the ID6100 manual can be challenging, as the product is no longer in active production. However, the manual remains available through several reliable online sources: id6100 danieli manual
: Although encased in a rugged IP66 aluminum housing, ensure that any integrated air-purge or water-cooling jackets are fully connected to prevent dust accumulation on the optical lens. 4. Electrical Interface and Wiring
The is a loop scanner and heat detector used in metal production for non-contact detection and measurement. It belongs to the iD6000 series of instrumentation designed for high-accuracy performance in harsh steel mill environments. Key Features of the iD6100 Series The Comprehensive Guide to the Danieli ID6100 Indicator:
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
Check power supply (20-30VDC), verify lens cleanliness, and recalibrate the scanner. It belongs to the iD6000 series of instrumentation
If ambient temperatures are high, connect the water-cooling circuit to keep the internal sensor temperature within limits (refer to the specific technical drawing for flow rates). 3.3. Electrical Connections Use the armoured connector cable to connect the