The DLIV requires a stable power source. Industrial environments often have "dirty" power; the manual recommends a dedicated circuit or an isolation transformer to prevent spikes from damaging the sensitive digital light intensity sensors. 2. Connection Calibration
Once immersed, the DLIV begins a 3-to-5 second data collection window. Do not move the lance during this period.
The (e.g., Celox, Positherm) you are using? Any specific error codes you are encountering?
Indicates a broken thermocouple circuit or a poorly seated probe.
To ensure the "verified" status of your readings, operators must follow these standardized steps:
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
Signal exceeds the expected range, often caused by a short circuit in the lance wiring.
Heraeus Electronite Dliv Standard: Manual Verified
The DLIV requires a stable power source. Industrial environments often have "dirty" power; the manual recommends a dedicated circuit or an isolation transformer to prevent spikes from damaging the sensitive digital light intensity sensors. 2. Connection Calibration
Once immersed, the DLIV begins a 3-to-5 second data collection window. Do not move the lance during this period. heraeus electronite dliv standard manual verified
The (e.g., Celox, Positherm) you are using? Any specific error codes you are encountering? The DLIV requires a stable power source
Indicates a broken thermocouple circuit or a poorly seated probe. Connection Calibration Once immersed, the DLIV begins a
To ensure the "verified" status of your readings, operators must follow these standardized steps:
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
Signal exceeds the expected range, often caused by a short circuit in the lance wiring.