The resistance of an ideal oscilloscope probe is infinity.
A standard oscilloscope is designed to measure voltage, you need a current probe for your oscilloscope to measure current.
change your resistance, its a little button, or if you are using an older oscilloscope, its a knob that will lower the sensitivity of the display. if it is something way higher than the oscilloscope can measure, you may have to run a resistor or transformer in the line.
zero
internal resistance is always infinite in ideal current source .the internal resistance is in shunt with current source
Audio Frequency Oscilloscope and Cathode Ray Oscilloscope
Oscilloscope probe compensation is the process of adjusting the probe to match the input capacitance of the oscilloscope, ensuring accurate waveform measurements. This is done by using a compensation signal to adjust the probe's circuitry for optimal signal fidelity. Proper probe compensation is essential for obtaining accurate and reliable measurements with an oscilloscope.
You can get information on how to do repairs on your oscilloscope probe online. One such website is http://www.radio-electronics.com/info/t_and_m/oscilloscope/oscilloscope_probes.php. The oscilloscope probe is mechanical part of scope. It does not have any electronic circuit. It is better to contact manufacturer for repairs of your probe. In all probabilities you will need replacement than repair as lenses, and fiber-optic cables do not get repaired.
A standard oscilloscope is designed to measure voltage, you need a current probe for your oscilloscope to measure current.
If the positive probe of the oscilloscope is connected to the negative terminal and the negative probe is connected to the positive terminal of a DC supply, the oscilloscope will display an inverted signal. This means that the voltage reading will be negative, effectively showing the opposite polarity of the actual DC voltage. The magnitude of the reading will remain the same, but the trace on the oscilloscope will appear flipped around the zero voltage line.
Beware using ground clips for high speed measurements.Beware of oscilloscope bandwidth limitations.Ensure the correct triggering.Use the right oscilloscope probe.Remember to calibrate the oscilloscope probe.Beware using ground clips for high speed measurements.Beware of oscilloscope bandwidth limitations.Ensure the correct triggering.Use the right oscilloscope probe.Remember to calibrate the oscilloscope probe.
Teledyne LeCroy manufacturers oscilloscope probes. Teledyne LeCroy also offers an option to have a oscilloscope probe serviced with them if there is ever an issue.
To measure using an oscilloscope, connect the oscilloscope probe to the signal source. Adjust the time and voltage scales on the oscilloscope to properly display the waveform. Use the cursors and measurements feature on the oscilloscope to measure parameters like frequency, amplitude, rise time, and pulse width.
To make an oscilloscope trace brighter, you can adjust the vertical sensitivity (volts per division) to a lower setting, which increases the amplitude of the displayed signal. Additionally, increase the intensity or brightness setting on the oscilloscope if available. Lastly, ensure the oscilloscope is properly calibrated and that the probe is correctly connected to minimize signal loss.
ideal ammeter has zero internal resistance
Transient voltage can be measured using an oscilloscope equipped with a high-bandwidth probe, which allows for capturing fast voltage changes. Connect the probe across the points of interest in the circuit to record the voltage waveform. The oscilloscope will display the transient events, enabling analysis of their amplitude, duration, and frequency characteristics. It's crucial to ensure the oscilloscope's bandwidth exceeds the frequency of the transients being measured for accurate results.
In a certain sense oscilloscope probes are already being used in medicine today. An oscilloscope is simply a machine that visually represents changes in voltage. Thats what EKG and EEG machines do - they measure the electrical activity in your heart and brain respectively and use probes to do it.
if any thing is ideal then that has no any resistance