High Frequency AC / DC Current Probe
Bandwidth:DC~50MHz / 100MHz
Current Range:6A/30A
DC Accuracy (Typical):±1%
High Frequency AC / DC Current Probe
Bandwidth:DC~50MHz / 100MHz
Current Range:6A/30A
DC Accuracy (Typical):1%
BNC Interface
Standard BNC interface to work on any oscilloscope.
Compact and Exquisite Design
One-handed easy use.
Applicable to various complex tests.
Auto Degaussing and Zero
Press "Zero", the probe will be degaussed and calibrated automtically at the same time.
Overload Indicator
When the current is overloaded, corresponding range button will flash.
HF Current Signal Measurements
Accurate measurement capability on high-frequency signals >20MHz. (CH1 Yellow).
Same signal completely distorted when measured by low-frequency probe. (CH2 Blue).
Observe Surge Current
Accurately capture the surge current waveform when the power adapter starts.
Applications
● Electric vehicle transportation design
● Switching power supply design
● Experiment of electronic engineering
● Semiconductor devices design
● Avionics design
● Inverter/Transformer design
● Electronic ballast design
● Industrial Control / Consumer Electronics design
● Engine driven design
● Power electronics and electric drive experimental design
BNC Interface
Standard BNC connector for all oscilloscopes.
Compact and exquisite appearance
Compact appearance, easy to operate, one-handed grip.
Applicable to a variety of complex scenes.
Degaussing / Auto-zeroing in one operation
Press the auto-zero button “Zero”, the button will light up, the probe will be demagnetized and calibrated.
Safe measurement with overload indicator
When the current is overloaded, the status indicator of the corresponding range button will flash.
Measuring high frequency current signals
The high-frequency AC/DC current probes are still accurate for measuring signals above 20MHz. (CH1 yellow waveform in the figure).
The low-frequency AC/DC current probe measures the same signal with complete distortion. (CH2 blue waveform in the figure).
Observe inrush current
Capable of accurately capturing the inrush current waveform when the power adapter start.
Application Areas
New Energy Vehicle Design
Switching Power Supply Design
Electrical Experimentation
Semiconductor Device Design
Avionics Design, Inverter/Transformer Design
Electronic Ballast Design
Industrial/Consumer Electronics Design
Engine Driver Design
Power Electronics and Power Transmission Experimentation etc.
Key Specifications
Key Specifications
