Transformer on load switch AC parameter tester

Transformer on load switch AC parameter testerPrecautions for Attention

1. Be sure to read the instructions carefully before using the instrument.
2. The operation of the instrument should have general knowledge of the use of electrical equipment or instruments.
3. It can work normally within the range of environmental temperature -5 ℃ to 40 ℃ and relative humidity ≤ 80%, but when used outdoors, it should be avoided from being exposed to rain and direct sunlight on the LCD screen.
4. The power switch must be turned on after all the leads are connected.
5. After the test is completed, the test line should be removed only after the discharge is finished.
6. Do not move the test cable clamp during the testing process.
7. If the current is small, two or more wires can be connected in parallel as one measurement, and unused wires should be short circuited to the black wire.
8. There is a protective grounding wire on the power socket. Please insert the plug into the three eye socket with grounding wire.

Transformer on load switch AC parameter testerInstructions

1. In actual measurement, the measured waveform is often worse than the theoretical waveform, especially when there is winding measurement. This is because the oscillation signals caused by the inductance and capacitance parameters of the transformer winding, as well as the mechanical vibration of the tap changer during measurement, result in some fluctuations in the measured waveform, which cannot be avoided in actual testing. Some new switches exhibit insulation at low voltages due to the protective oil film on the switch contact points; And for switches with a long service life and oxidation phenomenon at the switch contact points, the waveform may appear during testing, which is also a normal phenomenon. You can switch the switch several times on this level to make the oxide layer thinner, increase the contact area, and then use the instrument for testing, which may avoid this phenomenon.
2. Another phenomenon is the over range test, such as when the transition resistance of the test switch is greater than 9 Ω and the measurement range is selected as 9 Ω, the waveform shown in Figure 21 will appear. At this point, the transition resistance at the location indicated by cursor 1 may be normal, while the transition resistance at the location indicated by cursor 2 is displayed as 50.0 Ω. This is due to overtravel, and simply change the range to 30 Ω before testing. It is also possible that the intermediate process of the transition is a straight line with a resistance of 50.0 Ω, which is beyond the range. Therefore, it is only necessary to change the range to 30 Ω.
3. When conducting measurements without windings and without the influence of distribution parameters of transformer windings, the waveform will be closer to the theoretical waveform. When the waveform curve measured by the user is not straight, it is mostly due to mechanical transmission reasons, not problems with switch or instrument testing. If a breakpoint occurs and the waveform returns to the bottom at the breakpoint, caution should be exercised.
4. Sometimes there is a momentary breakpoint when switching the switch, and the waveform is compressed into an approximately straight line. This situation is caused by the processing of this instrument. When moving cursor 2 to read the points of the three-phase waveform curve, the changes in resistance during each switching period can also be seen, but this situation needs to be retested. When there is an abnormal jump point in the waveform that lasts for more than 2ms, the resistance value at that point should be checked. If the resistance value exceeds 50 Ω, it is likely to have poor contact or loose parts. At this time, multiple tests should be repeated to determine

Technical Parameter
1. Three phase constant current source charging, charging current: 3A/1A range; 0.6A/0.2A gear;
2. Port high voltage: 24V;
3. Transition resistance large range: 100 Ω;
4. Transition resistance measurement range: 1A range: 0.4 Ω~20 Ω 0.2A range: 10 Ω~100 Ω;
5. Duration of waveform recording: 300ms;
6. Sampling rate: 30k;
7. Time resolution: 0.1ms;
8. Resistance resolution: 0.1 Ω;
9. Accuracy: Transition resistance: ± 5% reading ± 0.1 Ω Transition time: ± 0.5% reading ± 0.2mS;
10. Operating temperature: -10~40 ℃ Operating relative humidity:<85% RH.