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- IDAX322 INSULATION DIAGNOSTIC ANALYSER BASED ON HV DIELECTRIC FREQUENCY RESPONSE (DFR) MEGGER
IDAX322 INSULATION DIAGNOSTIC ANALYSER BASED ON HV DIELECTRIC FREQUENCY RESPONSE (DFR) MEGGER
IDAX322
INSULATION DIAGNOSTIC ANALYSER BASED ON HV DIELECTRIC FREQUENCY RESPONSE (DFR)
- State-of-the-art, high voltage DFR instrument tailored for field testing of power transformers, bushings, current transformers, voltage transformers, cables and more.
- The IDAX322 instrument and its accessories are designed for the most demanding field conditions
- 2 kV peak and 50 mA capacity – ideal for low capacitance objects such as bushings and instrument transformers
- Best hardware and specifications for the most accurate results
- Easy to use software with integrated assessment guidance aligned with standards and informed by 25+ years of field experience with DFR technology.
What does DFR mean?
DFR stands for Dielectric Frequency Response. The test is also known as FDS (Frequency Domain Spectroscopy). DFR is a measurement technique in which capacitance and losses (expressed as dissipation factor/tan delta or power factor) are measured over multiple frequencies to assess the insulation condition in test objects, such as power transformers, bushings and instrument transformers. DFR technology is an established test procedure in laboratories that, in an innovative effort by Megger, has been adapted for field use through the IDAX range of instruments. In transformers, bushings and instrument transformers, issues are not often visible at conditions at which it is easy to perform diagnostic tests (typically, at ambient temperature and line frequency). Rather, problems are generally best exposed at higher temperatures or closer to the operational limits of the objects. Unfortunately, temperature is not easily or efficiently controlled in a field test environment. The power of a DFR test is that tan delta or power factor is the basis for its measurements. Tan delta or power factor is primarily a function of insulation system geometry, aging byproducts, moisture, liquid insulation conductivity, frequency, and temperature. Capitalising on knowledge about these relationships, an assessment of aging byproducts, moisture and conductivity can be made in the frequency domain, via DFR, rather than in the much more difficult to control temperature domain. Therefore, DFR makes it easy to find problems in the insulation under conveniently achieved conditions in the field.