Extech 600A AC True RMS Clamp Meter + NCV

The Extech 600A AC True RMS Clamp Meter quickly checks for the precense of live wires before testing.

Features

  • True RMS for accurate readings of non-sinusoidal waveforms
  • Built-in non-contact voltage detector with LED alert
  • 60A and 600A current ranges
Your Price $142.99
Usually ships in 1-2 weeks
Extech
Free Lifetime Tech SupportFree Lifetime Tech Support
ImagePart#Product DescriptionPriceStockOrder
Extech 600A AC True RMS Clamp Meter + NCVMA620 600A AC True RMS clamp meter + NCV
$142.99
Usually ships in 1-2 weeks
Extech 600A AC True RMS Clamp Meter + NCV MA620-NIST 600A AC True RMS clamp meter + NCV, NIST traceable
$225.49
Usually ships in 1-2 weeks

The Extech 600A AC True RMS Clamp Meter is capable of giving true RMS readings, which allows for accurate evaluations of non-sinusoidal waves. The meter is able to read 60A and 600A current ranges. Each meter has a 1.5" (40 mm) jaw size for conductors up to 500MCM. A built-in non-contact voltage detector alers users with an LED light.

  • Display counts: 6000
  • AC current (true RMS) range: 60.00A, 600.0
  • AC current (true RMS) maximum resolution: 0.01A
  • AC current (true RMS) basic accuracy: ±(2.8% + 8d)
  • AC voltage (true RMS) range: 6.000V, 60.00V, 600.0V
  • AC voltage (true RMS) maximum resolution: 0.001mV
  • AC voltage (true RMS) basic accuracy: ±(1.8% + 8d)
  • DC voltage range: 600.0mV, 6.000V, 60.00V, 600.0V
  • DC voltage maximum resolution: 0.1mV
  • DC voltage basic accuracy: ±(1.5% + 2d)
  • Resistance range: 600.0Ω, 6.000kΩ, 60.00kΩ,600.0kΩ, 6.000MΩ, 60.00MΩ
  • Resistance maximum resolution: 0.1Ω
  • Resistance basic accuracy: ±(1.0% + 4d)
  • Frequency range: 10Hz to 10kHz
  • Frequency maximum resolution: 0.01nF
  • Frequency basic accuracy: ±(3.0% + 5d)
  • Temperature range: -4 to 1400°F (-20 to 760°C)
  • Temperature maximum resolution: 0.1°
  • Temperature basic accuracy: ±(3.% + 9°F/5°C)
  • Diode: yes
  • Continuity: yes
  • Dimensions: 9.1 x 3 x 1.5" (232 x 77 x 39mm)
  • Weight: 9.6oz (271g)
  • (1) Meter
  • (1) Package of test leads
  • (1) Type K bead wire temperature probe
  • (1) 9V battery
  • (1) Case
Questions & Answers
No Questions
Please, mind that only logged in users can submit questions

In The News

Robotic Fish May Reduce Live Fish Testing Near Hydroelectric Plants

Each year in Germany, as many as 450,000 living fish undergo live animal experiments to test how fish-friendly hydroelectric power plants in the country are. The idea is to discover how readily the fish can move through hydroelectric turbine installations in order to ultimately reduce mortality rates. Of course, subjecting live fish to a potentially deadly test to save others is a bitter irony. And it's one that a team of scientists from the RETERO research project hopes to eventually mitigate with a robotic fish for testing. EM corresponded with Olivier Cleynen and Stefan Hoerner from the University of Magdeburg about the complex flow conditions that set the parameters for the project.

Read More

Mobile HAB Lab, Citizen Scientists Building Awareness

News stories about dogs getting sick from harmful algal blooms (HABs) in lakes have caused worry among members of the public this summer more than once. But Regional Science Consortium (RSC) Executive Director Dr. Jeanette Schnars and a dedicated team are bringing awareness about HABs to the public with the Mobile HAB Lab. “We just launched the HAB Citizen Scientists program this year,” explains Dr. Schnars. “It helps us work with people, especially people who spend time at marinas frequently, that are out there all season long.” The season for boaters at Presque Isle, where RSC is located, starts in mid-May and usually continues through the beginning or middle of October.

Read More

Handheld Cyanotoxin Detection Technology Prototype

In the battle against harmful algal blooms (HABs), time is important . The need for laboratory equipment and testing is a serious challenge for water managers. This issue caught the eye of Qingshan Wei , an assistant professor of chemical and biomolecular engineering at North Carolina State University . “Our research group is interested in developing low-cost sensors,” Wei told EM . “Recently we have been developing sensors for environmental monitoring, and cyanotoxins came to our attention .” Cyanobacteria, which generate HABs, are becoming a challenge across the US . They are a very serious problem in North Carolina, in part due to the weather.

Read More