Methods for Eliminating Hidden Faults in Digital Multimeters
There are many types of word multimeter and their application range is also very wide, but after all, a multimeter is one of the electronic products, and there may be some small problems during use. Here are some tips for troubleshooting.
1. Waveform analysis.
Use an electronic oscilloscope to observe the voltage waveform, amplitude, period (frequency), etc. of each key point in the circuit. For example, if the clock oscillator is on and the oscillation frequency is 40kHz. If the oscillator has no output, it indicates that the internal inverter of TSC7106 is damaged, or it may be due to an open circuit in external components. The waveform of the {21} pin of TSC7106 should be a 50Hz square wave, otherwise it may be due to damage to the internal 200 frequency divider.
2. Measure component parameters.
For components within the fault range, parameter values should be analyzed for online or offline measurements. When measuring resistance online, the influence of components in parallel with it should be considered.
3. Hidden troubleshooting.
Implicit faults refer to faults that appear and disappear from time to time, and the instrument is sometimes good or bad. This type of fault is quite complex, and common reasons include solder joints being loose, loose connectors, poor contact of the transfer switch, unstable component performance, and continuous disconnection of the leads. In addition, it also includes factors caused by external factors. If the ambient temperature is too high, the humidity is too high, or there are intermittent strong interference signals nearby, etc.
4. Visual inspection.
You can touch the temperature rise of the battery, resistor, transistor, and integrated block with your hand to see if it is too high. If the newly installed battery heats up, it indicates that the circuit may be short circuited. In addition, it is also necessary to observe whether the circuit is disconnected, desoldered, mechanically damaged, etc.
5. Detect the working voltage at all levels.
Detect the working voltage at each point and compare it with the normal value. Firstly, ensure the accuracy of the reference voltage, preferably using a digital multimeter of the same model or similar for measurement and comparison.
