Manual Verified Exclusive | Heraeus Electronite Dliv Standard

According to the verified standard manual, proper installation is the first step toward accurate measurement. 1. Power Requirements

Operating the DLIV involves working with molten metal at temperatures exceeding 1600°C. Always wear flame-resistant clothing and face shields.

Secure the probe to the lance. A "Ready" light (usually green) should illuminate on the DLIV display. heraeus electronite dliv standard manual verified

Indicates a broken thermocouple circuit or a poorly seated probe.

Before the first heat, technicians must verify the "Zero" and "Span" of the instrument. Check the internal reference voltage. Ensure the connector blocks are free of slag or dust. Always wear flame-resistant clothing and face shields

Usually points to electromagnetic interference (EMI) or insufficient immersion depth. Routine Calibration

The instrument will signal a "Complete" status. Withdraw the probe immediately to prevent lance damage. Maintenance and Troubleshooting Indicates a broken thermocouple circuit or a poorly

Verify that the thermal compensation leads match the probe type (Type S, R, or B). Operating Procedures: Step-by-Step

The DLIV system is designed for high-speed data acquisition in harsh industrial environments. It typically consists of a handheld or stationary instrument connected to a sacrificial probe (such as the Celox or Positherm). Core Components

The manual dictates that the DLIV should undergo a master calibration every 6 to 12 months using a certified Heraeus Electro-Nite simulator. This ensures the digital light intensity readings remain within the ±1°C tolerance. Safety and Compliance