The CP031 uses a combination of Hall effect and transformer technology which enables measurements to be made on DC, AC and impulse currents. It has a 100 MHz bandwidth and is designed to measure continuous currents up to 30 Amp.
The CP031 uses a combination of Hall effect and transformer technology which enables measurements to be made on DC, AC and impulse currents. It has a 100 MHz bandwidth and is designed to measure continuous currents up to 30 Amp.
Teledyne Lecroy current probes do not require the breaking of a circuit or the insertion of a shunt to make accurate and reliable current measurements. Based on a combination of Hall effect and transformer technology, Teledyne Lecroy current probes are ideal for making accurate AC, DC,and impulse current measurements.
Fully Integrated with Oscilloscope
Many current probes require external power supplies or amplifiers to display a waveform on the oscilloscope screen. All Teledyne Lecroy current probes are powered through the Teledyne Lecroy ProBus® connection and require no additional hardware. Along with providing power, the ProBus connection allows the current probe and oscilloscope to communicate,resulting in current waveforms automatically displayed on screen in Amps, and calculated power traces scaled correctly in Watts. This full integration also allows for Degauss and Auto-zero functions to be done directly from the oscilloscope with a single button press.
Applications
Teledyne Lecroy current probes are available in a wide range of models for a wide range of applications. The full range of Teledyne Lecroy current probes includes models with bandwidths up to 100 MHz, peak currents up to700 A and sensitivities to 10 mA/div.Multiple current probes can be used together to make measurements on three-phase systems, or a single current probe can be used with a voltage probe to make accurate instantaneous power measurements.Teledyne Lecroy current probes are often used in applications such as the design and test of switching power supplies,motor drives, electric vehicles, and uninterruptible power supplies.
Electrical Characteristics | |
Bandwidth (Probe Only) | 100 MHz |
Coupling | AC 1 MΩ, DC 1 MΩ, GND |
Typical Risetime | 3.5 ns |
Max Continuous Input Current | 30 A |
Max Peak Current (non-continous) | 50 A |
Minimum Sensitivity | 10 mA/div |
Amplitude Accuracy | ±1% of reading to 30 A ±2% of reading to 50 A |
Maximum Circuit Voltage | 300 V, CAT I (Insulated Wire) |
Environmental and Safety | |
Operating Temperature | 32 to 104°F (0 to 40°C) |
Humidity | ≤80% relative humidity (non-condensing) |
Storage Temperature | 14 to 122°F (-10 to 50°C) |
Max Altitude | 2000 m |
Physical Dimensions | |
Probe Head Dimensions | 6.9 x 0.7 x 1.6" (175 x 18 x 40 mm) |
Cable Length | 4.9' (1.5 m) |
Maximum Conductor Size | 0.2" (5 mm) |
Weight | 8.5 oz (240 g) |
General Specifications | |
Interface | ProBus |
Electrical Characteristics | |
Bandwidth (Probe Only) | 100 MHz |
Coupling | AC 1 MΩ, DC 1 MΩ, GND |
Typical Risetime | 3.5 ns |
Max Continuous Input Current | 30 A |
Max Peak Current (non-continous) | 50 A |
Minimum Sensitivity | 10 mA/div |
Amplitude Accuracy | ±1% of reading to 30 A ±2% of reading to 50 A |
Maximum Circuit Voltage | 300 V, CAT I (Insulated Wire) |
Environmental and Safety | |
Operating Temperature | 32 to 104°F (0 to 40°C) |
Humidity | ≤80% relative humidity (non-condensing) |
Storage Temperature | 14 to 122°F (-10 to 50°C) |
Max Altitude | 2000 m |
Physical Dimensions | |
Probe Head Dimensions | 6.9 x 0.7 x 1.6" (175 x 18 x 40 mm) |
Cable Length | 4.9' (1.5 m) |
Maximum Conductor Size | 0.2" (5 mm) |
Weight | 8.5 oz (240 g) |
General Specifications | |
Interface | ProBus |