To Next PageTo Next PageWhy is the DNV Measuring Instruments display flashing?
The display might be flashing because the maximum DAP power level has been exceeded. To resolve this, verify that the correct chamber type is set and press Reset.
What to do if DNV Measuring Instruments shows ERR:xxxx?
This error indicates that the TEST is out of the tolerance range ACT. You should: * Check if the TEST value in the calibration certificate agrees with parameter TEST_VAL. * Verify that the correct chamber type is set. * Repeat the TEST function after drying the measuring chamber (at max. 50°C). * If the issue persists, the measuring chamber may need repair.
What to do if DNV Measuring Instruments shows ERR: 0?
ERR: 0 indicates there is no signal from the measuring chamber, no supply voltage, or the signal line is defective. To troubleshoot: * Check the signal line between the measuring chamber and the display unit. * Connect the measuring chamber directly (without the signal line) to the display unit and repeat the TEST function.
What to do if DNV Measuring Instruments shows ZC-ERROR?
The ZC-ERROR indicates that the Reset button was pressed during exposure or the chamber leakage current is too high. Try the following: 1. Repeat Reset without irradiation. 2. Repeat RESET function after drying the measuring chamber (at max. 50°C). 3. If the issue persists, the measuring chamber may require repair.
How to fix OVERFLOW error on DNV Measuring Instruments?
If you see an OVERFLOW error, press the Reset button.
General| Brand | DNV |
|---|---|
| Model | VacuDAP 2002 |
| Category | Measuring Instruments |
| Language | English |
Explains symbols used in the manual and on the display unit for clear communication.
Describes the intended use of the VacuDAP 2002 measuring system for X-ray examinations.
Details the classification of the VacuDAP 2002 as a medicinal product and its IP rating.
States compliance with IEC 60601-1-2 standards for EMC protection requirements.
Outlines safety requirements for power supply and electrical safety class.
Specifies requirements for connected accessories and the use of original parts.
Provides guidance on careful handling, transport, and packaging of the fragile system components.
Instructs on proper cleaning methods for the measuring chamber and display unit, avoiding damage.
Details conditions for storage and operation, including humidity limits and potential error messages.
Explains how to dispose of the electronic components according to national regulations.
Lists the components of the VacuDAP 2002 and packing material handling instructions.
Specifies power supply requirements, including plug-in power pack and extra-low voltage options.
Provides instructions for installation by qualified personnel and lists ionization chamber sizes.
Details the procedure for the POWER-ON TEST and expected display messages for verification.
Explains how to connect and test accessories like printers via the serial interface.
Explains the need for stabilization time for the ionization chamber before accurate measurements.
Describes the factory calibration process and the importance of matching serial numbers and absorbers.
Introduces the purpose of the VacuDAP 2002 system for measuring patient radiation dose.
Illustrates and explains the main components and how they work together.
Details the design and function of the ionization chamber and detector electronics.
Describes different display unit types, their connections, and control keys.
Outlines who can operate the system and introduces the program flowchart for navigation.
Explains the startup sequence and initial display messages when the unit is powered on.
Details the system test procedure, expected results, and error conditions.
Describes how to initiate and perform measurements, including calibration factors.
Explains the function of the Reset key for clearing data and starting measurements.
Details how to print measurement data and configure printer parameters.
Explains the possibility of controlling the system and transferring data via a PC.
Describes how to switch between Radiography (RADIOGRA) and Fluoroscopy (FLUOROSC) modes.
Discusses the lack of wear on components and the need for system checks.
Explains how the stability test is performed automatically or manually.
Details the procedure for checking value drift over time.
Outlines the recommended frequency and method for overall calibration tests.
Lists common error codes, their meanings, and troubleshooting hints.
