⚡ Clamp the future of current testing with precision and style!
The Hantek CC-65_N AC/DC Current Clamp is a compact, high-precision tool designed for professional electronic testing. It measures DC currents from 20mA to 65A with a frequency response up to 20 kHz, and integrates seamlessly with USBXI™ modular systems. Lightweight and highly rated, it’s engineered for accuracy and convenience in demanding industrial and scientific environments.
| ASIN | B06W2KFZLW |
| Are batteries included? | No |
| Best Sellers Rank | #88,917 in Industrial & Scientific ( See Top 100 in Industrial & Scientific ) #233 in Clamp Meters |
| Brand | Hantek |
| Colour | Blue |
| Country of Origin | China |
| Customer Reviews | 4.5 4.5 out of 5 stars (491) |
| Date First Available | 13 May 2013 |
| Item Dimensions LxWxH | 19.5 x 3.3 x 7 Centimeters |
| Item Height | 2.76 Inches |
| Item Weight | 184 g |
| Item Width | 1.3 Inches |
| Item dimensions L x W x H | 19.5 x 3.3 x 7 Centimeters |
| Item model number | CC-65 |
| Manufacturer | Hantek |
| Model number | CC-65 |
| Number of Memory Sticks | 1 |
| Power Source | Corded Electric |
| Product Dimensions | 19.51 x 3.3 x 7.01 cm; 184 g |
| Specification Met | CE |
| Style | Digital,Clamp |
| UPC | 712383649287 519240055713 603281794936 520583405455 600209500198 611550889856 887662208278 712383648341 519240055706 |
J**U
Value of money
Super
A**R
Used for electronic testing
K**R
Very happy with this product and it works perfectly.
R**Z
Exelente atención buen producto
C**D
worked great.
M**L
When I first got my new current probe out of the box, I thought it was dead. Plugged the 9v battery (Not Included) into the back, plugged it into my DSO, switched it on, and... nothing. No lights. No change in the level when I hit 'zero', no readings when I clamped it onto the Vin line on my project. Except sometimes when I wiggled the switch just the right way, pressed down on it, the green 'Power' light would flicker for a second. I gave it a little shake, and I could hear a little rattle. I took the hazardous step of opening the back to see what was going on, and the problem was immediately apparent. Instead of using a discrete 3-position dptt switch, there's a hacky little arrangement that's prone to failure if you look at it funny. The plastic switch wiper has a pair of ductile little pieces of bent copper which are retained solely by compression between the wiper and the PCB underneath, and as they slide back and forth they make or break connections between tinned pads on the PCB. I suspect that pressing down too hard on the switch can bend them out of shape and let them fall out of place. It was a fiddly little fix bending them back into shape and lining everything up so it didn't fall apart again when I closed it back up, but it seems to work well enough as a current probe now. Sensitivity is acceptable at 100mv/A. I haven't had time to formally assess the accuracy and frequency response, but it seems to work reasonably at the low frequencies and currents I was using today.
