Product Features
Specifications:
- Model #: IP060
- Bandwidth: 60MHz
- Attenuation: x1 or x10
- Cable Length: 1.5 meters
- Input / Impedance: 1 Meg / 200pF or 10Meg / 22pF
- Max Input V DC + Peak AC: 150 Volt or 300 Volt
- Rise Time: 6ns
- Compensation Range: 20 ~ 45pF
- Readout: N/A
- IEC1010: CAT II
Applications
- Use TPI Probes with Bench Top, Portable, Analog, and Oscilloscopes
- Logic signal and waveform tests
- Measure voice / data signals
- Analyze power quality
- Test motor control circuits
Category Ratings:
- Category I: Usually electronic equipment or equipment where measures have been taken to limit transient over voltages.
- Category II: Single phase loads like appliance personal computers, television sets, and other household loads. Outlets located more than 30 feet froma CAT III source or more than 60 feet from a CAT IV source.
- Category III: Distribution level fixed installations like distribution panel devices, short branch and feeder circuits, three phase loads, and single phase commercial lighting.
- Category IV: Equipment and lines located on the power line side of a service panel or where a low voltage connection is made to utility power
Several important factors must be taken into account when selecting the proper probe:
The probe should have sufficient bandwidth and rise time for the test instrument and application. Choose a probe with at least an equal bandwidth as the scope it will be used with. For best performance a probe with twice the bandwidth as the scope should be selected. For oscilloscope probes, the input capacitance of your oscilloscope should be within the compensation range specification of the probe. In addition, if your oscilloscope has readout function, select a probe with this capability. For differential probes, make sure the maximum differential voltage is adequate for your application and the common mode rejection specification meets the requirements of the tests being performed.
Terminology:
Attenuation: Ratio of the output signal to the input signal. Attenuation should remain constant decreasing by 3dB only as the frequency increases to the maximum bandwidth.
Bandwidth: The maximum -3dB frequency that can be expected.
Cable Length: Length of the cable from the end of the probe to the end of the connector. It is important to use a probe with just enough cable length for your needs. Long cables increase the capacitance and propagation delay of the probe.
CMRR (Common Mode Rejection Ratio): A measure of a differential probes ability to reject any signals common to both test points in a differential measurement
Compensation Range: The range a probe can be compensated to match the input capacitance of the test equipment it is being used with.
IEC 1010: Probes with the IEC 1010 category rating have been designed for safety.
Input Impedance: The total resistance and capacitance as measured at the tip of the probe. This specification is used to define the loading effect of a probe. At frequencies under 1MHz the input resistance of the probe will have the most influence. At higher frequencies the input capacitance will have the most influence.
Max Input Voltage: The maximum voltage the probe can be used at.
Max Differential Voltage: The maximum differential voltage that can be measured by a differential probe
Readout: Probes with this capability are compatible with readout function oscilloscopes that automatically detect and display the attenuation factor of the probe.
Rise Time: The time required for the leading edge of a pulse to rise from 10% to 90% of its final value.
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